Loom



m 12, 1938; w. H. BAKER 2,123,595

' Loou Filed Oct. 3, 1935 14 Sheets-Sheet 1 INVENTOR.

July 12, 1938. w. H. BAKER 2,123,593

LOOM

Filed Oct. 3, 1935 14 Sheelis-Sheet 2 IN VEN TOR.

W. H. BAKER Jul 12, 1938.

Filed 001;.

3, 1935 14 Sheets-Sheet 5 INVENTOR.

a Q$ Jr -N$. a 3 4.: 2 Ho a Q n I- W N A ulna i?! J F L m m NNN July 12, 1938.

w. H. BAKERY LOOM Filed Oct. 3, 1955 14 Sheets-Sheet 4 INVENTOR.

Jul 12, 1938. w H, BAK R 2,123,595

LOOM Filed bet. 5, i935 14 Sheets-Sheet 5 1 Jul 12, 1938. w. H. BAKER 2,123,595

LOOM

Filed Oct. 3, 1935 14 Sheets-Sheet 6 v 'za 2? 7 1 47 40 3a .29 21 .9 16

.{'4s 26 34 Q l as 2:

INVENTOR W. H. BAKER Jul 12, 1938.

LOOM

Filed Oct. 3, 1935 14 Sheets-Sheet. 7

, INVENTOR. v

I I I) W% 4* W. H. BAKER July 12,- 1938.

LOOM

Filed oci. s, 1935 14 Sheets-Sheet 8 ll'll'lllllll INVENTOR.

W. H. BAKER July 12, 1938.

LOOM Filed Oct. 3, 1935 14 Sheets-Sheet 9 1N VENTOR.

W. H. BAKER July 12, 1938.

LQOM Filed Oct. '3, 1955 14 Sheets-Sheet l0 INVENTOR.

July 12, 1938. I w. H. BAKER 2,123,595

' LOOM Filed Oct.. 5, 19:55 14 Sheets-Sheet 11 INVENTOR.

July 12, 1938. w. H. BAKER I 2,123,595

' LOO! Filed 001:. 5, 1935 14 Sheets$heet 15 INVENTOR.

July 12, 1938. w. H. BAKER 2,123,595

LOQM

Filed Oct. 3, 1935 14 Sheets -Sheet l 4 ligza v a o :284 1 zsa 275 27s 278%279 277 i i U INVENTOR.

Patented July 12, 1938 UNITED STATES ATET OFFICE 9 Claims.

This invention relates to automatic looms, and especially to the class where the weft carrier, or shuttle is discarded with the spent weft bobbin.

In the preferred form of the invention shown,

the loom can be operated as a weft mixing loom, mixing the weft two shots from each shuttle from a plurality of shuttles. The loom has a box motion at one end of the lay, having a plurality of shuttle cells, and a single box at the other end of the lay where the shuttles are changed.

A plurality of feelers are located at the box motion end of the lay, and a shuttle magazine having a plurality of compartments for shuttles adjacent to the other end of the lay, also means for discarding the spent shuttle for a replenished one from the magazine on that end of the lay.

There is also provided a selector mechanism controlled by the box motion operating mechanism for determining from which compartment in the shuttle magazine the next full shuttle will be taken to replace the spent shuttle running in the loom.

My invention further relates to arrangements and combinations of parts which will be hereinafter described and more particularly pointed out in the appended claims.

This approved version of the invention also applies to the class of weaving where a plurality of kinds of weft are to be employed as indicated in the following description.

' In the accompanying drawings:-

Fig. 1 is an end view.

Fig. 2 is a front elevation.

Fig. 3 is a plan View.

Fig. 4 is a view of the opposite end to Fig. 1.

Fig. 5 is a fragmentary end view showing the feelers.

Fig. 6 is a fragmentary elevation view showing the feelers. 40 Fig. 7 is a perspective view of the feeler.

Fig. 8 is a front elevation of the indicating device.

Fig. 9 is a fragmentary plan view of Fig. 8.

Fig. 10 is a detailed end view of the shuttle magazine, also showing the shuttle box partly in section.

Fig. 11 is'a detailed front elevation of Fig. 10 without the shuttle box. I 50 Fig. 12 is a plan view of Fig. 11.

Fig. 13 is a section on line A-A in Fig. 14 showing the shuttle box closed.

Fig. 14 is a front elevation of the shuttle box with the shuttle magazine removed.

55 Fig. 15 is a plan view of Fig. 14.

Fig. 16 is a fragmentary plan view of the shuttle placer parts.

Fig. 17 is a section on line A-A in Fig. 14 showing the shuttle box open.

Fig. 18 is an end elevation showing the weft 5 cutter.

Fig. 19 is a fragmentary plan view of the weft cutter adjustment.

Fig. 20 is a fragmentary section showing the cutter operating rod. 10

Fig. 21 is a front elevation of Fig. 18.

Fig. 22 is an enlarged side view of the weft cutter mechanism.

Fig. 23 is a section on line B-B in Fig. 21

showing a side elevation of the selvage cutter. 15

Fig. 24 is a top plan view of Fig. 23, and

Fig. 25 is an enlarged side View of the selvage cutter.

Referring more particularly to the drawings, Figs. 2-5 and 6, I is the loom frame, 2 the lay, 20 3 the feelers mounted in guides suitably fastened to the brackets 5 and Ed, by the bolts 20, one above the shifting two celled shuttle box, the other below the aforesaid shuttle box, and mounted on the back of the lay end in such a 25 manner as to allow the upper feeler to enter the top of the shuttle in the upper box cell to contact the weft in that shuttle, and the other mounted to enter through the bottom of the shuttle in the lower box to contact the weft in this shuttle. 30 Fig. 7 is a general perspective of the feeler in which i is the feeler bar with the tip 8 of indurated material and the striker pin 9 threaded therein, and can be adjustably held by the check nut 10 on the front side of the feeler tip. The

feeler bar 1 is confined in the guide piece l3 by the slots II and I2. The light spring [4 positions the part against lateral movement, and the pin i5 limits the end movement toward the weft bobbin. The guide piece [3 has a reinforced part i6, shown as being attached to the back thereof and having an exposed edge I! positioned just behind the indurated feeler tip as it moves, to form a support to same when the striker pin 9 strikes the striker plate !8, and remove the strain from the relatively light bearing slot ll at the lower extremity of the guide, when the feeler has indicated a weft change. The feeler bracket is made in two parts 5 and 5a with an adjustable slide 4 between the two members and is united by the bolt I9. This slide 4 is to admit for lateral adjustment to position the feeler directly over the axis of the bobbin, and a longitudinal position can be had by moving the bracket along the lay back 2 and clamping in place by the screws 2!).

The contacting end of the feeler tip 8 has the usual serrations or teeth which can be of any suitable shape to operate with the type of weft used. With the feeler parts assembled as described the correct position for same is formed and securely held by screws 29 and I9.

Referring to Figs. 8 and 9, the striker plates |8 are mounted on the shaft 2| fulcrumed in the bracket 22 and attached to the loom by the bolt 23 in the adjusting slot 24 in the bracket, and 25 in the loom frame member 26. Mounted on the shaft 2| is the arm 21 to which is connected the curved link 28, the free end of this link is attached to a light spring 29 which is in turn anchored at 3|] to the bracket 26 or other convenient support by the spring cotter or other means in such a manner that the tension of the spring will tend to hold the stop finger 33 located on the shaft 2|,

against one end of the slot 32 in the bracket 22 in released or running position and against the other end of the slot when the feeler has indicated a weft change by contacting a striker plate l8 due to a weft bobbin being depleted to a predetermined extent. The arm 21 being set to swing across by force of the spring 29 from one side of the shaft 2| in released position to the other side of the shaft for indicating position. The stop finger 33 is screwed to the shaft 2| to impart endwise movement to the latch lifter wire 34. This latch lifter Wire 34 is bent angularly at the opposite end and adapted to slide up an incline 35 in the bottom of the slot or guide 36 in the bracket 31 which is bolted to a fixed part of the loom, and has a pin 38 across the slot 36 to prevent the lifter wire 34 from accidently becoming dislodged from the said slot. Referring. to Figs. 4-8 and 9, on the upper end 39 of the lifter 'wire 34 is the indicator latch 40 attached to the arm 4|, and screwed to the cross shaft 42 the function of which is to call a weft change when required. The power to move the latch 49 when a weft change is required originates with the actuator cam 43 Fig. 4, the cam follower 44 the actuator lever 45 fulcrumed at 46 on the loom frame, and the upright extension 41 adjustably fastened to the main lever 45. There is a contacting pawl 48 fulcrumed on the pin 48a set in the upright arm 41 to contact the notched end 48a at the end of the latch 40. When the feeler calls a weft change through the indicating mechanism previously described the latch 40 is raised into positionwhere it remains until the cam 43 on its next cycle moves the arm 41 back, allowing the pawl 48 to engage the notched end 49a. After these parts interlock the .arm 41 again moves forward transmitting movement through the latch 49 and the arm 4| to the cross shaft 42. The forward movement of the arm 41 with the parts interlocked as described also causes considerable pressure to bear upon the lifter finger 41a mounted on the hinge pin 41b, sustained by the lifter wire 34. This pressure forces the lifter finger 41a down against the lifter wire 34 until the stop 41c comes to rest on the forward edge of the upright arm 41, replacing the indicating parts for the next actuation.

Fastened to the loom frame is a bracket 50 to which is adjustably bolted the main magazine stand 5| Figs. 10-11 and 12. In an arm of this stand is a shaft 52 on which the shuttle magazine members 53 and 54 are mounted, and securely held in place by the bosses 55 and 56 and the set screws 51. The magazine has two compartments 58 and 59 for shuttles as indicated, where two kinds of weft can be assembled, one kind separate from the other to supply the loom with the proper weft as the running shuttles become exhausted. For example; the shuttle space 58 can be arranged to feed shuttles into the loom so that they will always run in the lower cell of the two cell shuttle box at the other side of the loom, and shuttles in the magazine space 59 to run always in the upper cell of the shifting shuttle box at the opposite side of the loom.

Referring to Figs. 2-4 and 10, the selector shaft 59a is mounted in holes in the loom frame and extends across the front of the loom. On the box motion side of the loom the arm 6|) Figs. 1 and 4 :is positioned, and this is connected with the box motion operating levers by the stud 6| and the adjustable connecting rod 62 Fig. 2, so that the selector shaft 59a will be rocked or moved slightly each time that the box motion operating parts are moved. At the shuttle changing end of the loom, Fig. 10 this selector shaft 59a is screwed to the arm 63. On the inside of the loom frame at this point is bolted the guide bracket 64. Pivoted on arm 63 by the stud 63a .is the controller guide 65, arranged to pass between the guides or ears 64a on the bracket 64. The guide 65 has an opening to receive the lower end of the selector proper 66a. This selector is fulcrumed at 61 on the shuttle release arm 69 by the stud 68. The upper end of the selector 66, Fig. 11 is turned at right angles, and extends under the shuttle release mechanism. The selector proper 66 has a downward extension 66a which fits loosely in a hole in the guide 65 causing it to swing a short distance front and back as the box motion moves. This movement causes the upper end of the selector 66 to oscillate directly below the shuttle release members 10 and 1|, shown clearly in Fig. 10, as the pattern for the box motion progresses. When a change of shuttles is called, the selector 66 is lifted by the lever 69 raised by the cross shaft 42 causing one of the shuttle release members to be moved. The shuttles, Fig. 12, are held in the magazine compartment at the tips by wings 96 and 91 located on the sides of the vertical shafts 12 and 13 in the compartment 58 of the magazine, and by wings 99 and |0| on the vertical shafts 14 and 15 in compartment 59. These vertical shafts operate in pairs, shaft 13 has an arm 16 and shaft 12 has an arm 11. These arms are connected by the adjustable connectors 18 and the connecting rod 19 operating the shafts in compartment 58 in unison. Shuttle compartment 59 is equipped with the vertical shafts 14 and 15 with the arms and 8| connected by the adjustable connectors 82 and the connecting rod 83 to operate this compartment. On the magazine member 54 are the ears 84 through which the connecting rods 19 and 83 pass freely. Fitting loosely on the rod 19 is the loose skirted collar 85, the compression spring 86 and the adjusting collar 81 which serve to replace the shuttle release shafts 12 and 13 after a shuttle has been released from the shuttle compartment 58. I The loose skirted collar 68, the spring 89 and the adjusting collar 90 on the connecting rod 83 serve to replace the shuttle release shafts 14 and 15 after a shuttle has been delivered from the magazine in compartment 59. These release shafts 1213-14--and 15 are held firmly in position by the bearings 9| and 92 at the top of the shuttle magazine, and by bearings 93 and 94 at the bottom, see Fig. 11. In Fig. 12 the wings are shown located at the lower ends of the shuttle release shafts. Shaft 12 has the wings 95 and 96, and shaft 13 the wings 91 and 98 all in compartment 58 of the shuttle magazine. Shaft 14 has the Wings 99 and H10, and the shaft 15 has the wings IOI and I02 located in compartment 59. In this figure the parts are shown sustaining shuttles in both compartments, the bottom shuttle in compartment 58 rests on wing 91 on the shaft I3 at the inner end, and on wing 96 on the shaft I2 on the outer end. The lower shuttle in compartment 59 is sustained by wing 99 on the shaft M on the inner end, and by Wing IIlI on the shaft I5 on the outer end. The arrangement of parts for compartment 59 can be seen in elevation in Fig. 11. As it is desirable that only one shuttle drop at a time for transfer, when the wings 99 and I6! release the bottom shuttle in compartment 59, the wings I99 and I02 immediately swing under the next above shuttle to prevent same from dropping until the replenishment has been made. The procedure being the same in compartment 58, it is unnecessary to describe this operation again. Referring to the shuttle release members I0 and II, Figs. and 12, these slide in vertical grooves I93 and I04 on the outer surface of the inner end of the magazine. The member I0 has a lug I05 which contacts a spiral wing I 96 on the shuttle release shaft I3 in such a manner that when this member is moved upward by the selector 66 as described, the lug I 95 will press against the lower surface of the spiral wing I06, and cause the shuttle release shaft I3 to turn, and as this shaft I3 is connected to shuttle release shaft I2 at the other end of the shuttle space 56 in the magazine, through the adjustable connectors I8, and the connecting rod i9, the wing 91 on the shaft I3, and wing 96 on shaft I2 will be moved from under the tips of the lower shuttle in this compartment of the magazine, allowing this shuttle to drop out at the bottom, and the shuttle supports 98 on the shaft I3, and 95 on the shaft I2 will slip under the tips of the next above shuttle preventing it from dropping through with the first mentioned shuttle. It will be noted that these wings 91* and 98, Fig. 12, are arranged to overlap so that the supporting wing 98 will be well under the shuttle tip before wing 9I swings clear. The same procedure is repeated at the other end of the shuttle by the shuttle release shaft I2, and the supporting shelves 95 and 96 moved by the connecting arms I6 and Ill adjustable connectors I8 and the connecting rod I9. When a call is made from compartment 59 of the magazine, and the selector 66 resides under the shuttle release member II, the same procedure will be effected through the shuttle release shafts I4 and I5 and the arms 80 and 8I adjustable connectors 82 and the connecting rod 83 all deriving their movement from the lug I0I on the release member II and the spiral flange I08 on the shaft I4.

Referring to Fig. 13, 2 shows the lay in section on line A-A Fig. 14. On the lay are mounted in fixed positions two brackets I I0 and I I I Figs. 14 and 15, and sliding across the lay at this end, between these guides is the main body of the shuttle box IIZ. This shuttle box is cut away at II3 to allow the shuttle box to move across the lay and escape the picker stick H4 and picker II5 Fig. 14, when a spent shuttle is to be ejected to the rear in the process of changing shuttles. The shaft II6 operates in bearings I I! in the bracket I I0 on the inner end, and I It in the bracket I I I at the outer end of the lay, as shown in dotted lines Fig. 15. Keyed to this shaft or otherwise fastened, are found two gear segments II9 on the inner end meshing with the rack I2I which is held by cap screws to the main bracket H0, and segment I20 on the outer end meshing with the rack I22 which is fastened by cap screws to the bracket I I I at the outer end of the lay. Also fastened to this shaft I I6 near the outer end is part I23 Fig. forming a fulcrum for the binder I24 and a fastening for the binder spring I25. Next from the end on this shaft is the binder spring adjusting bracket I26 with the adjusting screw for the spring. Adjacent the gear segment on the shaft I I6 is the part I21, with the box back I20, the binder guide I29, shown in Fig. 13, and'the protection rod operating part III, fulcrumed in the backward and downward extending members I30 and I3I Fig. 15. These downward extending members also contain the stop wire I32 Fig. 13 which forms a back stop for the protection rod operating part Ill. The part I2I also includes the operating arm I33 which receives movement derived from the operating cam I34 Fig. 1. The cam I34 which is held on the cam shaft by the yoke bolt I36 and set screw I3I, contacts the roller I38 on the arm I39 fulcrumed on the main lever I40. There is ashort projection I4I on the arm I39 to which the control rod I42 is attached by a link or slot I43 to the depending arm I44 on the cross shaft 42 to operate the shuttle changing instrumentalities when a feeler has indicated an exhausted filling carrier at the other side of the loom. I45 Fig. 1, is the bearing bracket for the main operating lever. The front end of this lever terminates in a swivel I46 through which passes the connecting rod I41, which is attached to the arm I33 by the pin I 48 at the top. This connecting rod I4! is curved or offset at the top to clear the shuttle tips as the spent shuttles are liberated at the back of the lay, by the rotating upward and backward movement of the parts described as being mounted on the shaft I I6 Figs. 13-14 and 15.

The relief lever I5I Fig. 1, is pivoted in the lever I 40 by a pin I 59 and extends upward through the guide I52 of the upright extension I49 of the lever I40, and is connected by a pin I53 at the top to the connecting rod E54 which in turn is fastened to the shuttle placer I55, furnishing the required movement to position a new shuttle on the race in the process of changing shuttles. The spring I56 Figs. land 16, on the connecting rod I54 is held by the collar I60, and presses the connecting shackle I9I against the adjusting nuts I6I on the end of the connecting rod I54. The shackle I9I and the spring I56 slide on a bushing I58. This arrangement of the parts is necessary to allow the shackle I9I to slip a short distance along the connecting rod I54 after the placer I55 has been hooked to the lay, and until the placer is released, as hereinafter described. Referring again to Fig. 1 the upright extension I49 has a hole I62 in which the spring bolt I63 is seated. This bolt extends frontward through the lever I5I and the substantial relief spring I64, collar I65, and adjusting nut I66 forming a relief to prevent damage to the parts in the event that the incoming shuttle becomes misplaced or the shuttle placer mechanism for any reason fails to function. The relief spring I61 on the connecting rod I4I is held in. position by the collar I68 at the top and presses against the swivel I 46 at the bottom. On the bottom end of the connecting rod I4I below the swivel is a positioning collar I69 to prevent the connecting rod from escaping through the swivel by urge of this spring. This arrangement of the parts forms a relief should the outgoing shuttle become jammed or if for any other reason the shuttle box parts fail to move freely under the urge of motion received from the main operating cam I34, when they shuttles are being changed.

On the main operating lever I40 Fig. 1, at the I15 is a connecting rod I15, which is bent down' slightly and extends through a hole in the lay to the back thereof where it is confined, and guided by the plate of indurated material I18 Fig. 13. Fulcrumed between the depending arms I30 and I3I, Figs. 14 and 15, is the protection rod operating part or finger I11. This finger has a roller at the top to bear against the binder. and an upturned end I19 to facilitate the operation of removing and replacing by hand the shuttle in the box when required. At the lower end of this protection rod is a fiat face I80, to contact the end of the connecting rod I16 to trans mit movement from the binder I24 to the regular protection rod I14, to stop the loom, in the event that a shuttle should fail to box properly in this shuttle box. When this shuttle box is moved into abnormal or changing position the stop wire I 32 prevents the protection finger I11 from swinging over out of position while away from the end of the connecting rod I16.

The main body of the shuttl' box II2 Fig. 14, is provided with guides IBI on the inner end, and I82 on the outer end. The guide I8I slides in the groove I83 in the bracket IIO, andthe guide I82 slides in the groove I84 in the bracket III. The grooves and guides in combination support the shuttle box and also allow it to move during shuttle transfer. The upper rear box guide II2a, shown in Figs. 13-15 and 17, is constructed and so positioned to hold down the shuttle in the shuttle box, thereby preventing the shuttle from contacting the upper front box guide and chafing or cutting the weft as it runs from the shuttle eye.

The placer I 55 is fulcrumed at the rocking rail I90 Fig. 2, receiving its movement from the connecting rod I54, and the fitting I9I terminating at the top with the part I92 Fig. 13, with the spring cushioned delivery plate I93 adapted to receive the shuttles as they are released from the magazine and transferred to the loom. Referring to Figs. 1 and 2, I94 is the rocker iron fastened to the rocking rail I90. There is a turned shank I95 at the inner end of the rocker iron I94 to form a bearing for one leg of the placer I55, and a stud I96 at the outer end, supported by bracket I96a, to form a bearing for leg I91 of the placer. It is to be understood that these two bearings I95 and I96 are arranged in line, and the two legs of the placer turn freely upon them, making a rigid support for the placer. There is also a guide 23I mounted on the front of the lay to guide the placer during shuttle replenishment. At the top of the part I92 Fig. 13 are the holes I98 to receive the studs I99 which are fastened to the delivery plate I93. On the studs I99 are the cushioning springs Ia held by the nuts 20I on the threaded part of the studs, to limit the movement of the delivery plate under the urge of these springs. Fastened at the top of the part I92 is the shuttle protector 202 in the form of a curved sheet of steel, to prevent a shuttle from falling behind the placer in the event of an accidental dislodgment of a shuttle from the magazine while the placer is delivering a shuttle to the shuttle box.

A short distance down from the top of the shuttle placer is a fitting 203 Fig. 13, supporting a hook 204 fulcrumed at 205, and having a tensioning spring 206 to hold the hook against the cam 201 fulcrumed at 209 in the bracket 2I0 screwed to the placer top casting I92. This cam has an upstanding arm 208 to contact the ends 2I3 and 2I4 of the control rod 2I2. These parts are to hook the placer to the lay and release same at predetermined times.

Mounted on the shuttle magazine is a depend-. ing bracket 234 Fig. 13, supporting the hook controller rod 2I2 with the turned end 2I3 at the back to trip the hook from the lay when required, and aturned end at the front 2 to return the cam 201 and the hook 204 to normal position. On the under side of the lay is a detent or projection 2I5 in which the hook 204 engages, holding the shuttle placer to the lay during the proccss of changing shuttles. On the back of the shuttle magazine are two shuttle supports 2I6 Figs. 2 and 13, which extend down the front at each side of the shuttle placer space, and are turned backward to form a floor for the magazine. These are covered with leather or other cushioning material 2| 1 Fig. 13, to receive and retain the shuttles when they are dropped after a Weft exhaustion indication has been made by one of the feelers, and until the shuttle placer has transferred the shuttle to the race. Also extending from the bearing brackets 93 and 94 are side members 233 Fig. 11, which form surfaces at each end of the shuttle in this space below the shuttle magazine to keep the liberated shuttle confined endwise in proper position to be moved backward on to the race in front of the picker Where it is picked across the loom.

It has been found necessary, in addition to the adjustable stops I89 and I90 on the rack I2I, and the adjustable stops 2I9 and 220, on the outer rack I20, to incorporate a box locking device to insure proper operation of the protection rod I14.

Referring to Figs. 1-13 and 17, there is a bracket 22! fastened to the under side of the lay near the loom side beyond the sweep of the picker stick having a fulcrum pin 222 and a spring lug 223. Mounted on the fulcrum pin 222 is the looking lever 224 with a latch 225 at the back, a spring socket 225 in which is seated the compression spring 221 to normally hold the latch in closed or locked position, and the angular operating end 220 at the front. This operating end co-operates with the unlocking lever 229 mounted on the cross shaft 42 to unlock the shuttle box II2 when a callfor weft change comes from the feeler and the lay has advanced toward the front sufiiciently to enable the spent shuttle to arrive in the shuttle changing box at the magazine side I24 and bearing for the protection finger I11 with the roller at the top, Figs. 13 and 14, and the flat surface I80 at the lower end to bear against the end of the protection rod I16, which passes through the lay beam at this point to operate the protection rod I14 through the arm I13 while the loom is running normally. One of these arms or projections I30 is extended still further down and terminates in a hook shaped extremity I39a adapted to strike the rear end of the catch 225 just under the edge of the lay, and form asecure lock for the shuttle box when in normal or running position.

The spent shuttles are caught and held in the receptacle 232 shown clearly in Figs. 1 and 2, or in any other well known manner.

There are two weft cutters required with a shuttle changer of this character, one to cut the weft from the discarded or spent shuttle and another to sever the weft of the new or incoming shuttle. Figs. 18192021 and 22, show the cutter for the weft from the discarded shuttle. This cutter is adjustably mounted on the arm 5! by the bracket 236. The upper surface of this bracket 236 is provided with a hole surrounded by a ring of radial serrations or notches at 23? on which is bolted a cap 238 having like serrations to fit into those on the bracket 236, and held in place by the bolt 239. Radiating from the cap 238 is a fulcrum or journal 24!? on which is mounted to swing, the body of the cutter 22! with the slotted projection 24la at the top and the cutter members at the other end.

On the cross shaft 42 is conveniently mounted an upright arm 242, at the upper end of this arm is a link rod 243 which transmits rocking movement from the shaft 42 to the cutter 24! through the swivel 244, which is clamped in proper position in the slot 245 by the sleeve 26"! and nut 268 Fig. 20, and has a washer 269 and cross pin 216 to loosely hold the swivel 244 in place in the projection 241a of the cutter body 24!. On the link rod 243 is mounted a compression spring 246 and the adjusting collar 24'! to hold the spring with proper tension on the adjusting collar 248 to limit the action of the spring and hold the parts in proper working position. At the lower end of the cutter body 24! is fastened by a screw 249, the fixed cutter blade 25!] Figs. 18-21 and 22, and fulcrumed on the screw 25! is the movable or shear blade 252. There is a small spiral spring 265 around the fulcrum screw 25!, shown in dotted lines Fig. 22, adapted to assist in keeping the cutter blades 255 and 252 together to produce the cutting of the weft of the outgoing shuttle. There is an angular projection 253 on this cutter extending upward, and having a closer plate 254 riveted to the side thereof to present a relatively broad wearing surface to the closer pin 255 firmly set into the mouthpiece 256 mounted on the lay in the usual way Fig. 22 to close the cutter and sever the weft during replenishment. On this closer plate 254 is a projection 254a Fig. 22, which acts as a stop and limits the movement of the shear blade 252. Loosely mounted on the fulcrum screw 25! and the positioning pin 256 Figs. 18 and 22 is a clamping plate 25! of indurated material. This plate fits snugly to the shear blade 252, and is held against it by the flat spring 258 which is screwed to the cutter body 24! by machine screws 259 supplying the necessary friction to hold the thread until it is out again by the selvage cutter to be described. Mounted on the cutter body 24! on the fulcrum 26! is the cutter opener lever 262 composed of a hub or fulcrum part, an upright member 263 to open the cutter when required and the lower member 262. This cutter opener is moved in one direction by the coil spring 264 Fig. 21, to keep the member 263 always against the weft cutter upright member 253 to avoid wear due to vibration as the loom runs. Mounted on the loom frame or other convenient fixed part is the cutter opener 265, through the medium of the adjustable bracket 266, Fig. 22. After the shuttle replenishment has taken place, and as the train of levers actuated by the cam 43, Fig. 4 returns the cutter to normal or running position, the lower member 262 slides by the cutter opener 265, and is then in position for the next feeler actuation. It will be noted by the construction and positioning of the members 262 and 265, that the shear blade will be opened gradually through the inward movement of the cutter, thereby eliminating the usual abrupt action of the cutter, and avoiding excessive strain of the controlling levers. The bracket ill] Figs. 21 and 22 has a recess shown as 5a which enables the weft cutter to move a sufficient distance over the shuttle race to secure the weft from the spent shuttle that is about to be ejected from the shuttle box.

On many fabrics of light and delicate nature it has been found advisable to omit the temples, and on such looms some other means is needed to sever the weft ends left by the outgoing and the incoming shuttles. The selvage cutter shown in Figs. 2324 and 25 has been designed for this purpose. It consists essentially of a yieldingly and adjustably mounted holder 215 on a sliding bracket 216 screwed to the loom frame or breast beam by the mounting 21'! let into said breast beam as shown and held in any desired position by the bolt 218, and the flat spring 219. The bolt 278 passes through the slot 266 Fig. 24, and allows the cutter to slip back away from the reed in the event of a shuttle being out of the box, and in the path of the cutter as the lay heats up. When this occurs the cutter must be replaced manually. On the inner or reed end of this cutter, a cavity 28! has been formed to receive the sharp blade 282 which is so held by the pin 263 as to be easily removed for sharpening or replacement. A transverse opening 284 is so arranged to allow the weft protruding from the selvage, that is held by the other weft cutter previously described, and the weft from the incoming shuttle, to advance into this opening as the fabric is woven and drawn across the sharp edge of the cutter blade and the edges of the cavity in which the blade is confined, thereby severing both of the weft ends very close to the selvage of the cloth. The construction of the blade and holder are such as to give ready access to the weft to be cut, and also to protect the operatives from injury due to coming in contact with the blade.

The operation of this shuttle changing loom is as follows: As the shuttle arrives in a cell of the shifting shuttle box, the action of the box motion raises or lowers the box cell away from the level of the race. This movement causes one of the feelers to contact the weft on the bobbin in the shuttle. When the weft on the bobbin becomes substantially exhausted, the contacting feeler slips longitudinally positioning the striker pin 9 to contact the striker plate !8 Figs. 4-5-6-7-8 and 9. On the next forward beat of the lay, of the next pick the contact is effected, transmitting movement to the lifter wire 34 which raises the latch 45 into the path of the contacting pawl 48 on the upright arm 41. Another shuttle on the level of the race is then picked into the other cell of the shifting shuttle box where it is moved away from the level of the race by the box motion for feeler contact. The shuttle containing the substantially exhausted weft bobbin then arrives in the shuttle box on the magazine side 2 of the loom as the main lever'45 moves the upright arm 4'! away from the lay, engaging the latch 40 through the pawl 48 thereby moving the cross shaft 42. During this operation the lifter finger 41a is forced down depressing the lifter wire 34 thereby resetting the parts for the next feeler indication. It will be noted by the drawings Fig. 1 that the cross shaft 42 controls four distinct operations through shafts and levers attached 'thereto simultaneously. The movement of the cross shaft 42 causes the spent shuttle to be ejected and replaced by a replenished one by the following means. The cross shaft 42 through the upright arm 242 and the link rod 243 Fig. 18, moves the cutter into position, and through this movement opens the shear blade 252 as heretofore described. As the lay approaches front center the closer pin 255 Figs. 21 and 22, fastened in the mouthpiece 25B mounted on the lay engages the closer plate 254 closing the shear blade, thereby severing the weft of the spent shuttle, the means provided on the cutter holding the Weft until severed by the selvage cutter.

The movement of the cross shaft '42 Figs. 1 and 10 also raises the lever 69.attached thereto, and

this lever raises the selector 66 fastened to the other end, as it oscillates under the shuttle release members I and I I. The oscillating movement of the selector 66 is derived from the box motion operating mechanism, and is transmitted across the loom by the selector shaft 59a as previously described. This oscillating movement being controlled by the box motion insures that the weft replenishment will correspond with the weft in the shuttle that is on the level of the race. As the selector 66 is raised it engages the shuttle release member indicated for replenishment, said member having a lug which in turn engages a spiral wing connected to the shuttle release shaft located on the inner side of the magazine. This shaft is connected to a similar shaft on the outer end of the magazine by adjustable connectors and connecting rod to operate in unison. Each of these release shafts has two wings located at the lower end. The bottom wings, as the shafts turn release the shuttle in the magazine compartment selected allowing it to drop upon the supporting members 2 I6 Fig. 11, positioned under the magazine. The top wings of the release shafts simultaneously engage the tips of the next above shuttle during this operation holding same thereby allowing but one shuttle to transfer at a time.

Fastened to the cross shaft 42 is the lever 229 Fig. 1. As the cross shaft moves this lever is elevated into the path of the lockinglever 224, that opens the shuttle box lock.

The arm I44 on the cross shaft 42 through the link I43, toggle lifter I42 and toggle I39 cause the main cam I34 to move the main operating lever I40. Connected to the lever I40 is the upright connecting rod I41 extending and attached I the receptacle provided. The main operating lever I40 Fig. 1 through.

the arm I5I and connecting rod I 54 pulls the placer I55 through the opening between the supporting members 2 I6 below the shuttle magazine. The placer there comes in contact with the replenished shuttle pushing it onto the race. As the shuttle box recedes the normal front of the shuttle box comes into line with the reed and serves as the box back for the replenished shuttle, the placer plate I93 Figs. 13 and 1'7 now forming the front of the box until the replenished shuttle has been picked out. The placer is moved in by the action of the operating levers until the placer hook 204 engages the detent 2I5 on the under side of the lay to lock and move the placer with the lay until the replenished shuttle is picked out. Then the placer through the mechanism provided engages the stop that is fastened to the magazine releasing the hook. The spring "I Fig. 1 attached to the main operating lever I40 causes the train of levers to return to normal position after the main cam I34 has passed by, and in so doing returns the shuttle box to its normal position where it is locked, and returns the placer to its normal or running position.

The passing of the cam 43 Fig. 4 through its train of levers terminating in the shaft 42 return to normal or running position the parts controlled by said cam thereby completing the cycle of the weft changing operations.

The selvage cutter positioned on a fixed part of the loom receives and severs the extending weft ends as the cloth weaves down.

Having thus described my invention, what I claim is:

1. In a shuttle changing loom operating with a plurality of shuttles, a magazine, a shuttle placer, a vibratable shuttle box adjacent said magazine, operating mechanism to vibrate the shuttle box and placer simultaneously at weft replenishment to change shuttles comprising an operating cam and armed lever having frontward uprightand rearward extending arms, fulcrumed on the loom frame, connections to vibrate the shuttle box on the frontward extending arm, shuttle placer connections on the upright arm, a roller supporting member fulcrumed on the rearward extending arm, and means controlled by the weft replenishing mechanism to position said roller in the path of the operating cam to move the armed lever on its fulcrum during cam contact.

2. In a loom of the character described, a lay, a shuttle box, means to vibrate said shuttle box transversely of the lay upon call for weft replenishment to effect shuttle changing, racks mounted on the lay adjacent the ends of the shuttle box, gear segments on the shuttle box associated with said racks, and adjustable means mounted on the racks to engage and limit the movement of the gear segments when the shuttle box vibrates to change shuttles substantially as described.

3. In a weft replenishing loom of the character described, a lay, a laterally movable shuttle box mounted on the lay, a magazine and a shuttle placer adjacent the laterally movable box, a cam, operative means to move the box and vibrate the placer simultaneously during cam contact, said shuttle box having displaceable front and rear walls, means incorporated in the shuttle box ends in engagement with projections on the lay to partially rotate the rear wall as the front wall recedes to eject a spent shuttle and receive the shuttle of the placer, and means to restore the shuttle box walls to normal position after the shuttle of the placer has become operative.

4. In a weft replenishing loom of the character described, a lay, a shuttle box comprising associated front and rear walls supported to vibrate transversely of the lay, a magazine and a shuttle placer adjacent said shuttle box, operative means to move the shuttle box and vibrate the placer simultaneously at weft replenishment, racks on the lay at each end of the box, gear 

